Abstract

Preterm jaundiced infants were treated by phototherapy with a new turquoise fluorescent lamp. This was more effective in reducing plasma total bilirubin in relation to light irradiance than the ubiquitously used blue fluorescent lamp.

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Phototherapy is the most widespread treatment for lowering bilirubin concentration in neonates. Blue fluorescent lamps with emission peak wavelength matching the absorption maximum of the plasma bilirubin-albumin complex at 460 nm have been used successfully in phototherapy, in particular the Philips F20WT12/BB special blue lamp with peak emission at 446 nm and the Philips 20WTL/52 blue lamp with peak emission at 452 nm and spectral width (width at half maximum) of 55 nm.

An increase in phototherapeutic efficiency was predicted for lamps with emission peak at about 490 nm.1 Thus, non-standard, cold cathode fluorescent lamps emitting at 490 nm were developed and clinically tested with successful results.2 Then new turquoise (blue-green) standard fluorescent lamps were made by Osram, with emission peak at 490 nm and bandwidth of 65 nm.

In this study, the phototherapeutic efficiencies of the turquoise and Philips/52 blue lamps are compared.

METHODS

The study period was 1 November 2000 to 31 December 2001. The inclusion criteria were preterm infants with a gestational age of 196–258 days, a postnatal age of > 24 hours, and non-haemolytic hyperbilirubinaemia. The infants participated in the study for 48 hours.

Phototherapy was administered continuously, except during feeding, nursing care, and blood sampling. Treatment took place in either an incubator or a bassinet. The distance from the phototherapy apparatus to the surface of the infants was about 32 cm.

The infants were randomised to one of two regimens: six of the turquoise fluorescent lamps (18W) plus two daylight fluorescent lamps (Philips TL-D18W/96) to reduce inconvenience caused to staff; or six blue fluorescent lamps (Philips 20WTL/52) plus two of the daylight lamps. The geometries of the two lamp systems were identical. The lamps were kept on for 100 hours before being used for phototherapy, and replaced after 1000 hours of operation. In fig 1A, the calibrated emission spectra of a single turquoise and blue lamp is shown along with the absorption spectrum of (Z,Z)-bilirubin (20 μmol/l), in 0.1 mol/l sodium phosphate buffer, pH 7.4, containing human serum albumin (40 μmol/l), normalised to its maximum value.

(A) Emission spectra of a single turquoise (Osram 18 W) and blue (Philips 20WTL/52) tube measured at the same distance (30 cm) with a calibrated spectroradiometer. The irradiance values of the tubes can be compared. Narrow peaks appearing on the broad fluorescence bands are due to the mercury emission lines. The absorption spectrum of (Z,Z)-bilirubin (BR)/human serum albumin (HSA) is also shown. AU, Arbitrary units. (B) Decrease in total serum BR at 12, 24, and 48 hours after the start of phototherapy for the turquoise and blue light. (C) Perceptual decrease in total serum BR at 12, 24, and 48 hours after the start of phototherapy. Values in (B) and (C) are mean (SD).

The light irradiance of the two phototherapy units was measured daily on the front/back of the infant’s chest with a broad band photodiode power meter (EG&G, model 460; Salem, Massachusetts, USA), previously calibrated at the two emission bands, 452 and 490 nm, against a thermopile (Nova power meter, 2A thermal head; Ophir Optronics Ltd, Jerusalem, Israel).

Total serum bilirubin concentration was measured with a Vitros 950 analyser on capillary blood drawn by heel prick 0, 12, 24, and 48 hours after the start of phototherapy. The imprecision expressed as a coefficient of variation was 1.9% at a bilirubin level of 225 μmol/l.

A questionnaire on inconvenience caused by working in the turquoise or blue light was completed by 47 staff members. Problems included irritation to the eyes, temporary glare, temporary blurred vision, headache, nausea, giddiness, and difficulty in observing the infant.

The study was approved by the ethics committee for North Jutland County. Written informed consent was obtained from the parents.

Figure 1B,C shows the decrease in total serum bilirubin concentration during phototherapy. No significant difference in the decrease after 48 hours of treatment was found between infants treated with turquoise light and blue light (p = 0.36; Mann-Whitney U test).

The fall in light intensity over 1000 hours of operation was similar for the turquoise and blue lamps (11% and 14% respectively).

As the light irradiance of the treatment with turquoise light was about three quarters of that with blue light and the reduction in plasma bilirubin concentration was the same in the two groups, the phototherapeutic efficiency of the new lamps is considerably higher (30%). This is consistent with the most efficient spectral emission predicted1 and confirms previous preliminary results.2

There were no significant differences in the inconvenience to staff members between turquoise and blue light (p > 0.05; χ2 test). Most had no preference for either type of light. If they had a preference, there was no significant difference between the turquoise and blue light.

The results of our investigation indicate that the new Osram turquoise fluorescent lamps and the Philips/52 blue lamps are equally convenient to use for the treatment of jaundiced neonates. However, the turquoise lamps are preferable because of the more efficient reduction in plasma bilirubin concentration in relation to light irradiance and the less severe side effects, such as mutagenic3 and photodegradation processes,4 associated with light of longer wavelength. Further improvement is expected from the introduction of lamp phosphor with narrower spectral emission in the blue-green spectral region.

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